Determination of long distance transport of Cs+, Co2+ and Zn2+ ions in vascular plants by autoradiography and gamma-spectrometry

Q4 Agricultural and Biological Sciences

Nova Biotechnologica et Chimica Pub Date : 2022-01-13 DOI:10.36547/nbc.1356

M. Horník, M. Pipíška, Jana Sekáčová, J. Augustín

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引用次数: 0

Abstract

Heavy metals and radionuclides can enter the food chain via cereals and vegetables grown in contaminated soils. In the case of microelements such as zinc, studies have not focused only to assessing its environmental risk, but also to enhancing its uptake by plants as an important growth-limiting factor. In our study, digitalized autoradiograms of whole plants of celery (Apium graveolens L.), tobacco (Nicotiana tabacum L.) and sunflower (Helianthus annuus L.) grown in hydroponic nutrient media spiked with 137CsCl, 60CoCl2 and 65ZnCl2 were used for quantitative determination of uptake, long-distance transport and distribution of Cs+, Co2+ and Zn2+ ions in plant tissues. Results from autoradiography and gammaspectrometry of plants showed, that cesium was translocated to aboveground part of the plants with the shoot-to-root ratio 1.0 : 0.6. On the contrary, cobalt and zinc were more immobilized in roots, with the shoot-to-root ratio up to 1.0 : 3.8. The highest concentration of cesium, cobalt and zinc, expressed in specific radioactivity per unit of leaf surface (Bq/cm2) was found in top, rapidly growing leaves, the lowest concentration in the oldest leaves in low position. Detection limits 3, 2 and 14 Bq/cm2 by using X-ray film for 137Cs, 60Co and 65Zn, respectively were obtained. These data correspond to detection limits 10.5 pg Cs+/cm2, 7.2 pg Co2+/cm2 and 785 pg Zn2+/cm2 at specific radioactivity of commercially available 137CsCl, 60CoCl2 and 65ZnCl2. Resolutions 1-2 mm was sufficient for visualization of metal uptake and distribution in roots, stalks, leaves and leaf venation. Obtained data are part of quantitative study of uptake and translocation of both low level-radioactive contamination in plants and microelements applied as fertilizers.

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射线自显影和γ -能谱法测定维管植物中Cs+、Co2+和Zn2+离子的长距离输运

重金属和放射性核素可以通过在受污染土壤中生长的谷物和蔬菜进入食物链。就锌等微量元素而言，研究的重点不仅在于评估其环境风险，而且还在于提高植物对其的吸收，将其作为一个重要的生长限制因素。短句来源本研究利用137CsCl、60CoCl2和65ZnCl2加氮培养基培养芹菜(Apium graveolens L.)、烟草(Nicotiana tabacum L.)和向日葵(Helianthus annuus L.)整株植物的数字化自放射成像技术，定量测定了植物组织中Cs+、Co2+和Zn2+离子的吸收、长距离运输和分布。植物的放射自显影和伽玛谱分析结果表明，铯在茎根比为1.0:0.6的情况下被转移到植物的地上部分。相反，钴和锌在根系中的固定化程度更高，茎根比高达1.0:3.8。以单位叶面比放射性(Bq/cm2)表示的铯、钴和锌浓度最高的是生长最快的顶部叶片，最低的是位置较低的最老叶片。x射线胶片对137Cs、60Co和65Zn的检出限分别为3、2和14 Bq/cm2。这些数据对应于市售137CsCl, 60CoCl2和65ZnCl2的特定放射性检测限10.5 pg Cs+/cm2, 7.2 pg Co2+/cm2和785 pg Zn2+/cm2。1 ~ 2 mm的分辨率足以显示金属在根、茎、叶和叶脉中的吸收和分布。所获得的数据是植物对低水平放射性污染和作为肥料施用的微量元素的吸收和转运的定量研究的一部分。

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来源期刊

Nova Biotechnologica et Chimica Agricultural and Biological Sciences-Food Science

CiteScore

0.60

自引率

0.00%

发文量

审稿时长

24 weeks